semiconductor nanoheterostructures in nonequilibrium conditions: glance through scanning probe...
TRANSCRIPT
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Semiconductor nanoheterostructures in nonequilibrium conditions: glance through
scanning probe microscope
K.S. Ladutenko (SPbGPU)
scientific advisers
V.P. Evtikhiev and A.V. Ankudinov
Ioffe Institute
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Plan of the report:
• The construction of atomic force microscope
• Several techniques
• My research of nanoheterostructures in nonequilibrium conditions
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The construction of atomic force microscope
• Probe
• “Probe-sample” interaction detection system
• Coarse positioning system
• Fine positioning system (piezoelectric tube)
• Feedback loop
• Vibration isolation system
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The outward appearance
our microscope
Smena NT-MDT
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Coarse positioning system
• Arm reducer.
• Springing reducer
• Piezo stepper motor • Stepper electric motor
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Piezoceramic scanner
kijkij Edu Uh
ldZ 0
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Piezoceramics drawbacks
1. Nonlinearity
2. Creep
3. Hysteresis
1
2 3
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Probe
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Van der Waals interaction
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“Probe-sample” interaction detection system
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FFzz
FFLL
“Probe-sample” interaction detection system
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Feedback loop
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Vibration isolation system
Hz
Hz
ext 10020
1010
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Acoustic noises
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Measuring techniques
• contact techniques – constant force technique – constant height technique – lateral force technique
• Semicontact – constant amplitude technique – Kelvin probe technique
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Constant force technique
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Constant height technique
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Lateral force technique
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GaSb with five quantum wells GaInSbAs GaInSbAs(5nm)/GaSb(25nm)
QW QW
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Constant amplitude technique
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Kelvin probe technique
)sin( tVVV acdctip
dz
dCyxVF tipcap
2),(2
1
dz
dCtVΦ(x,y)VF acdccap )sin()(
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List of techniques STM techniques • Constant Current mode
• Constant Height mode
• Barrier Height imaging
• Density of States imaging
• I(z) Spectroscopy
• I(V) Spectroscopy
AFM techniques• dc Contact techniques
• Constant Height mode
• Constant Force mode
• Contact Error mode
• Lateral Force Imaging
• Spreading Resistance Imaging
• ac Contact techniques
• Force Modulation mode
• Contact EFM
• AFAM
• AFAM Resonance Spectroscopy
• Piezoresponce Force Microscopy
• Semicontact techniques • Semicontact mode • Phase Imaging mode • Semicontact Error mode • Non-Contact techniques • Non-Contact mode • Frequency Modulation mode
• Many-pass techniques • EFM • Scanning Capacitance
Microscopy • Kelvin Probe Microscopy • DC MFM • AC MFM • Dissipation Force Microscopy
• Spectroscopies • Force-distance curves • Adhesion Force imaging • Amplitude-distance curves • Phase-distance curves • Frequency-distance curves • Full-resonance Spectroscopy
SNOM techniques • Shear Force Microscopy • Transmission mode • Reflection mode • Luminescence mode • SNOM Lithography
aSNOM techniques • Scanning Plasmon Near-field
Microscopy
Lithographies • AFM Oxidation Lithography • STM Lithography • AFM Lithography - Scratching • AFM Lithography - Dynamic
Plowing
Confocal Microscopy techniques • Laser mode • Image mode • Spectral mode • Confocal Volume Lithography
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Semiconductor nanoheterostructure in nonequlibrium conditions
• The motivation : need to improve the characteristics of injection lasers
• Method : Kelvin probe technique
• Modernization of this method
• Results
• Conclusions
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Motivation
N P
h
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p i n
Technique to measure the leakage currants
h
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Measurement
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CPD dependence from pumping currantV
olta
ge, V
Vol
tage
, V
X, nmX, nm
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Impulse power supply
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p i n
Technique to measure the leakage currants
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CPD dependence from pumping currantV
olta
ge, V
Vol
tage
, V
Currant, ACurrant, A
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Results
• The proposed and realized measurement procedure under pulse laser power supply allowed taking measurements at currents flowing through lasers is much higher than threshold current
• A change in contact potential difference is recorded far from pn-transition, in a strongly alloyed substrate depending on currents flowing through lasers
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Conclusion
The attained results allow presuming that the proposed EFM procedure under pulse diode pumping enables to access the contribution of different physical processes to the leakage current of laser diode operating within a broad range of pumping currents.